Golf ball marker holder and method

ABSTRACT

A display device for a golf ball marker includes a mechanism for temporary attaching the display device or insert at a visible position on a person, and a holding portion (structure) attached to the mechanism. The ball marker holding portion also includes a magnetic force portion, and a gripping portion adapted to apply a holding force on a ball marker. The magnetic force portion includes a magnet; and an element including a recess for receiving the magnet. A wristband can operate as the display device for the ball marker, which is removable from the temporary attachment to the wristband. The attachment can hold the marker in place while the person moves and plays golf, e.g., swings a golf club. The wristband can be a silicone wristband.

PRIORITY OF INVENTION

This application claims priority to U.S. Provisional Patent Application No. 61/510,462 filed Jul. 21, 2011 and to U.S. Provisional Patent Application No. 61/646,646 filed May 14, 2012, and which applications are incorporated herein by reference. A claim of priority to all is made.

BACKGROUND

The sport of golf is a major professional and recreational activity. Millions of people play the sport on a regular basis in the United States alone. Millions more play the sport in other countries. Individual players often desire to distinguish themselves from other golfers by their attire as well as by their quality of play. Many golfers enjoy displaying brands and various insignia on specialized golf clothing and equipment, including hats, shirts, and club covers, hats and the like. Golfers and advertisers of golf equipment are always using the space on these items to advertise their wares. Advertisers are always interested in other real estate that can provide further opportunity to display advertising to golfers of all types.

Golf ball markers are commonly used during a golf game to mark the position of a golf ball on a fairway or green. Golf ball markers can be formed as small, discrete structures. Some conventional golf ball markers have a plain, unadorned appearance.

Others have tried to display a ball marker on clothing. Again, among the disadvantages are that the marker may become dislodged from the magnetic nest in which it sits. One brush with a tree or bush is enough to dislodge the marker from a magnetic holder.

U.S. Patent Publication No. 2005/0272520 describes a Golf Ball Position Marker Assembly. U.S. Patent Publication No. 2009/0156332 describes a Golf Ball Marker Assembly. U.S. Pat. No. 7,727,087 describes a Method For Conducting Business on the Golf Course Incorporating the Use of Golf Ball Markers. U.S. Pat. No. 7,721,570 describes Primary Spacer Emblematic For a Golf Ball Marker. U.S. Pat. No. 6,984,183 describes Golf Ball Position Marker Assembly. All of these documents are incorporated by reference for any purpose. However, if the present written disclosure conflicts with the material incorporated by reference, then the present written description controls.

SUMMARY

A display device for a golf ball marker includes a mechanism for temporarily attaching the display device in a visible position on a person, and a ball marker holding portion attached to the mechanism. The ball marker holding portion includes a magnetic force portion. In an aspect, the ball marker holding portion includes a gripping portion adapted to apply a holding force on a ball marker. The magnetic force portion includes a magnet; and an element including a recess for receiving the magnet. The display device is attached to a mechanism to hold the display device in a display position. Example mechanisms include a pin to allow the display device to be attached to articles of clothing, or anything through which a pin can be used to hold the display device in place. Another example is a band for attaching to the wrist, ankle, or the like. In an example, the display device is a wristband with an attachment mechanism to removably fix the ball marker to the wristband.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of a wrist band having a golf ball marker therein, according to an example embodiment.

FIG. 2A is a perspective view of a display device that includes a ball marker holding portion, according to an example embodiment.

FIG. 2B is a perspective view of a of display device that includes a ball marker holding portion pinned to an article of clothing, according to an example embodiment.

FIG. 2C is a perspective view of a of display device that includes a ball marker holding portion pinned to a golf bag, according to an example embodiment.

FIG. 3 is a top view of an assembled wrist band without the ball marker, according to an example embodiment.

FIG. 4 is an exploded perspective view of a cap and magnet used to apply a magnetic force to the ball marker, according to an example embodiment.

FIG. 5 is a top view of the wrist band holding a ball marker, according to an example embodiment

FIG. 6 is a cross sectional view along cut line 6-6 of FIG. 5 that shows details of the ball marker holding portion 310 and the wrist band 110, according to an example embodiment.

FIG. 7 is a partial, cross sectional view of the wrist band ball marker, according to an example embodiment.

FIG. 8 is a cross sectional view of the wrist band ball marker at a rib in the cup, according to an example embodiment.

FIG. 9 illustrates different types of ball markers having an assortment of displays thereon, according to an example embodiment.

FIG. 10 is a perspective, front view of a wristband with a plurality of insert holders, according to an example embodiment.

FIG. 11 is a side view of removing an insert, e.g., a ball marker, from a holder in a wristband, according to an example embodiment.

FIG. 12 is a perspective, top view of a wristband with a plurality of insert holders, according to an example embodiment.

FIG. 13 is a view of a system of wristbands, according to example embodiments.

FIG. 14 illustrates two wristbands with alternate holders in the wristbands, according to example embodiments.

FIG. 15 is a side view of a holder, according to an example embodiment.

FIG. 16 is a top view of a holder, according to an example embodiment.

FIG. 17 is a bottom, side view of a holder, in a different position than FIGS. 15-16, according to an example embodiment.

FIG. 18 is a top, side view of a holder, in a different position than FIGS. 15-16, according to an example embodiment.

FIG. 19 is a cross sectional view of a holder for an insertion into a band according to an example embodiment.

FIG. 20 is a top, perspective view of a holder according to an example embodiment.

FIG. 21 is a top, front view of a wristband with a plurality of holders mounted therein, according to an example embodiment.

FIG. 22 shows a plurality of views of a slap type bracelet, according to example embodiments.

FIGS. 23A-B show perspective views of a wristband with magnetic inserts, according to example embodiments.

FIGS. 24A-E show perspective views of wristbands with holders, according to example embodiments.

FIGS. 25A-Q show perspective views of wristbands with holders including various band designs, according to example embodiments.

All Figures are illustrated for ease of explanation of the basic description and teachings of this disclosure. The extensions of the Figures with respect to number, position, relationship and dimensions of the parts to form the embodiment are further explained herein or are understood by one of skill in the art after the following description has been read and understood. The exact dimensions and dimensional proportions to confirm to specific force, weight, strength, flow, use and similar requirements will likewise be within the skill of the art after the following description has been read and understood.

Where used in various Figures of the drawings, the same numerals designate the same or similar parts. Furthermore, when the terms “top”, “bottom”, “right”, “left”, “forward”, “rear”, “first”, second”, “inside”, “outside” and similar terms are used, the terms should be understood in reference to the drawings and used only to facilitate describing the illustrated embodiments. Typically, these terms are ascribed and should be understood to reference the structures shown in the drawings as they will typically be used.

DETAILED DESCRIPTION

The present inventors have recognized the heretofore unmet need in the golf community for a display device to provide a convenience to golfers and to provide a place to store ball markers where the ball markers will be seen for extended periods of time during a golf game. Further, the markers are substantially secured when not in use and resist inadvertent removal during play. In an example, the display device is a wristband that holds the marker, e.g., during a round of golf.

FIG. 1 is a perspective view of a wrist band 100 or bracelet having a golf ball marker 1000 therein, according to an example embodiment. The wrist band includes a band 110 of flexible material. Attached to, integrated with or in contact with the band 110 is a ball marker holding portion 300. The ball marker holding portion 300, in the embodiment shown, is molded with the band 110 and is made from the same material as the band material. In one embodiment, the band material is a silicone material. In one embodiment, the band material includes, at least partially, a silicone. The wristbands can also include other inert, synthetic compounds. In an example, the band material includes polymerized siloxanes or polysiloxanes, which may be mixed inorganic-organic polymers with the chemical formula [R2SiO]_(n), where R is an organic group such as methyl, ethyl, or phenyl. Such materials include an inorganic silicon-oxygen backbone ( . . . —Si—O—Si—O—Si—O— . . . ) with organic side groups attached to the silicon atoms, which are four-coordinate. In another embodiment, the band 110 is made of a biocompatible material. It is contemplated that the band 110 can be made from a number of different materials that are flexible and still be within the scope of the invention. In addition to flexibility, a material can be chosen that exhibits tackiness or friction with the skin or clothing, in order to reduce movement during the course of play. The band may optionally be manufactured of a metal or be magnetized, for example. In other embodiments, the ball marker holding portion 300 can be made of different material and either mechanically attached, adhered, glued or otherwise attached to the band 110. In addition, the band 110 can have a message molded therein. The message could be an inspirational message or a corporate message or merely a corporate logo. Of course, this message would not be interchangeable like the message associated with the ball marker 1000 but would be permanent and displayed each time the golfer decided to wear the wrist band 100.

The band 110 can be embossed or have reliefs 120 therein to provide messages, logos, sayings, etc. in the body of the band. The lettering can optionally be raised or engraved. In an example, the band 110 can also include dimples that replicate the surface of the golf ball. These dimples can be on the inside of the band, i.e., toward the wearer's wrist. In a further example, the dimples are on the outside of the band. The band 110 can further be embedded with magnetic components (see 2304 of FIGS. 24A-B), for example, which some have claimed to have health assistance benefits.

FIG. 2A is a perspective view of a display device 200 that includes a ball marker holding portion 300. The display device 200 can include any type of attachment mechanism 210 to secure the ball marker holding portion 300 to another structure. In the example shown, the attachment mechanism 210 is a pin. The mechanism 210 is fixed to or integrated with the ball marker holding portion 300. The ball marker holding portion 300 can hold the ball marker 1000 in the same way as the ball marker holding portion 300 associated with the wristband 100. FIG. 2B shows the display device 200 attached to a pull over shirt which is commonly worn by golfers while playing the game. It should be noted, that this embodiment can be worn or pinned to any part of a persons clothing. For example, it can be pinned to a shirt, or a jacket. It could also be attached to a golf hat or other apparel.

FIG. 2C is a perspective view of a display device 200 that includes a ball marker holding portion 300 pinned to a golf bag 250, according to an example embodiment. The display can be a pin-on device or fixed to the golf bag. The golf bag 250 includes legs 251, 252 that automatically deploy when the bag 250 is set down on an edge of the bottom. The automatic deployment of the legs 251, 252 is controlled by a mechanical linkage. A golf bag banner 260 is attached to one of the legs 251, 252 and the golf bag 250. When the legs 251, 252 deploy, the banner 260 unfurls. In another embodiment, the golf bag banner 260 fits between the two legs 251, 252. The display device 200 is attached to a banner 260. Of course, multiple display devices 200 can be attached to various banners 260. Furthermore, the display device 200 could also be attached to any of a number of golf equipment or other golf accessory. For example, the type display device 200 can be attached on the golf bag 250 or onto a golf towel attached to the golf bag 250 so as to be readily accessible to the golfer. An example of a golf bag is described and shown in co-pending application Ser. No. 13/117,024, having a co-inventor in common and titled GOLF BAG BANNER, which application is hereby incorporated by reference for any purpose.

There may even be places within a golf cart where the type display device 200 could be attached and used, such as by utilizing a magnetic attachment mechanism 210 or adherent. The display device 200 includes a golf ball marker 1000 that can carry identification information, a corporate logo, or other advertising. The ball marker holding portion 300 is capable of receiving any of a plurality of ball markers 1000 (see FIG. 9) so that the message or logo or identifier carried by the type of display device 200 can be readily changed.

U.S. Pat. No. 7,721,570 describes other places where a ball marker can be displayed. The attachment assembly described herein can be incorporated into the locations shown in the '570 patent.

Now, referring the FIGS. 3-5, the ball marker holding portion 300 will be further detailed. FIG. 3 is a top view of an assembled wrist band 100 without the ball marker 1000, according to an example embodiment. The ball marker 1000 is removed for the sake of more clearly illustrating the example embodiment. More specifically, the ball marker 1000 is removed to more clearly show the golf ball marker holding portion 300 of the wrist band 100. The ball marker holding portion 300 is shown in contact with, such as attached to, the wristband 100 in FIGS. 3-5, and it should be understood that the ball marker holding portion 300 can be used along with other attachment mechanisms and that this is illustrated with the wristband 100 by way of example.

As shown in FIG. 3, the wrist band 100 includes a band 110, and a ball marker holding portion 300 attached to the band 100. The ball marker holding portion 300 also has a force portion 400 (such as a magnetic force portion), and a gripping portion 310 adapted to apply a holding force on a ball marker 1000. The ball marker holding portion 300 further includes a main body 320 and a cup 330 attached to or integrated with the main body 320. At least one major surface 410 of the magnetic force portion 400 is positioned in the cup 330. The force portion 400 is sufficient to hold the marker when a person moves around or swings their arm.

The attachment mechanism can be sized to hold a plurality of markers at one time. The golfer can then choose from the plurality of markers. The chosen marker can suit the golfer's mood, personality or match the round being played, for example. The ball markers can include one or more of decorative discs, coins, colored markers, markers with logos, and markers with numerical identification. In one example, the wristband as described herein holds a single marker, whereas the other marker display device, e.g., on bag, on bag flag, on the cart, shirt, etc. can hold two or more markers that are interchangeable with the others or the plurality of markers. In a further example, the wristband includes more than one attachment mechanism, e.g., two side-by-side on the band. In another example, more than two attachment mechanisms are positioned around the band. The more than two attachment mechanisms can be equa-distantly spaced around then wristband. The band can utilize two or more holding portions 300 spaced equa-distantly or non-equa-distantly on or in the band. It may be preferable for equal spacing between each holding portion 300 or marker to minimize weight imbalances of the band, leading to uncomfortable or distracting movement or turning of the band during the course of play.

One embodiment includes two or more holding portions 300 attached to a band with adjustable portions of the band in-between. A user can then adjust the band or band portions between holding portions 300 to provide an optimal personal fit and weight balance between holders.

FIG. 4 is an exploded perspective view of the magnetic force portion 400 of the ball marker holding portion 300, according to an example embodiment. The magnetic force portion 400 includes a magnet 410, and an element 420 including a recess 422 for receiving the magnet 410. In the embodiment shown, the element 420 of the magnetic force portion 400 is hat-shaped. The recess 422 is cylindrical and dimensioned to receive a disc magnet 410, such as a D 603 Magnet, which is available from K & J Magnetics, Inc. of PA. In an example, a disc-shaped magnet has a height less than its width or diameter. The magnet 410 can include a metal, e.g., molybdenum, neodymium or NdFeB. In an example, the magnet is a ferrous metal. The magnet 410 need not necessarily be disc-shaped but can have other shapes. Other shapes for the magnet can include cylinders, polyhedrons, prisms, other geometric volumes with straights sides or curved sides. The magnet 410 should fit within the recess 422. The recess can also be of other shapes. The recess shape, in some embodiments will substantially match the shape of the magnet 410. The magnet 410 is attached to the recess 422, such as by compression, gluing, twisting or frictional forces. In one embodiment, the magnet 410 is attached to the recess using an adhesive. The hat-shaped element 420 and the magnet 410 apply a magnetic force to the ball marker 1000. The hat-shaped element 420 includes a major surface 424 through which lines of flux will flow. The major surface 424 is presented within the cup 330 so that it is near or touching the ball marker 1000 when the ball marker is placed within the cup 330 and so the amount of magnetic force applied is effective in holding the ball marker 1000.

The cup 330 also includes a set of ribs, such as rib 331, 332, 333, 334. The set of ribs 331, 332, 333, 334 and a major surface of the magnetic force portion defining a plane near the bottom of the cup 330. The ribs 331, 332, 333, 334 hold the ball marker 1000 level with respect to the major surface 424 of the element 420. The ribs 331, 332, 333, 334 also are somewhat compliant so that the ball marker 1000 can be moved upwardly or downwardly as needed to remove or place the ball marker 1000 in the cup 330 and into engagement with the major surface 424 of the element 420.

The cup 330 also includes the gripping portion 310. The gripping portion 310 includes a sidewall 312 of the cup. The sidewall 312 has a lip 314. The sidewall 312 and the optional lip 314 are dimensioned to fit around a periphery of a ball marker 1000 and over a portion of one major surface of the ball marker. In one embodiment, both the sidewall 312 and the lip 314 are adapted to grip a ball marker 1000.

In an example, the cup sidewall 312 extends up onto a peripheral side of the ball marker and does not extend above the ball marker 1000. In this case the ball marker 1000 includes a top surface, which can be adorned with a logo, graphics and the like, extending above the attachment mechanism. In a wristband the ball marker in this example would extend above the wristband, e.g., above the silicone body of the wristband and typically away from the wearer's wrist.

In a further example, the cup sidewall 312 extends up onto a peripheral side of the ball marker and ends at the top surface of the ball marker 1000. In this case the ball marker 1000 is essentially co-planar with the top of the side wall 312. In a wristband the ball marker in this example would extend to a top surface of the wristband, e.g., at the top of silicone body of the wristband and typically away from the wearer's wrist.

FIG. 5 is a top view of the wrist band 100 with a ball marker 1000 positioned within the ball marker holding portion 300. The ball marker 1000 is held in place the magnetic force portion 400, and a gripping portion 310 adapted to apply a holding force on a ball marker 1000. The ball marker holding portion 300 further includes a main body 320, and a cup 330 attached to or integrated with the main body 320. At least one major surface 410 of the magnetic force portion 400 is positioned in the cup 330.

FIG. 6 is a cross sectional view along cut line 6-6 of FIG. 5 that shows details of the ball marker holding portion 310 and the wrist band 110, according to an example embodiment. As shown, the element 420 is molded into the main body of the ball marker holding portion 300. The element 420 is provided with a brim 425 having features 426 which allow liquid material to flow therethrough and to further hold the element 420 within the main body 320 after the liquid material cools to a solid state. In one embodiment, a substantial portion of the magnetic holding portion 400 is captured within the main body 320 of the ball marker holding portion 300. The wrist band 100 can be distributed or sold with a ball marker 1000 positioned therein. Of course, the gripping portion 320 is dimensioned to receive and hold a plurality of different ball markers 1000. The ball markers 1000 have a substantially uniform radial dimension. The radial dimension of the ball marker 1000 is larger than the radial dimension of the major surface 424 of the element 420.

A display device 200 for a golf ball marker includes a mechanism 210 for temporarily attaching the display device 200 in a visible position, and a ball marker holding portion 300 attached to the mechanism. The ball marker holding portion 300 is similar to the ball marker holding portion described above with respect to FIGS. 3-7. The ball marker holding portion 300 also includes a magnetic force portion 400, and a gripping portion 310 adapted to apply a holding force on a ball marker 1000. The magnetic force portion 400 includes a magnet 410; and an element 420 including a recess 422 for receiving the magnet 410. The magnet 410 is encapsulated within the main body 320. The ball marker holding portion further includes a main body, and a cup attached to or integrated with the main body. The holding portion can optionally not include a magnet and hold the ball marker by snapping, twisting, frictional forces with the floor of the cup or sidewalls, by compression or other means. At least one major surface of the magnetic force portion is positioned in the cup. The cup includes a set of ribs. The set of ribs and a major surface of the magnetic force portion defining a plane near the bottom of the cup. The cup includes the gripping portion. The gripping portion includes a sidewall of the cup. The sidewall has an optional lip. The sidewall and lip are dimensioned to fit around a periphery of a ball marker and over a portion of one major surface of the ball marker. Both the sidewall and the lip are adapted to grip a ball marker. The gripping portion is dimensioned to receive and hold a plurality of different ball markers. The display device is generally distributed with a ball marker positioned therein. In another embodiment, the display device is distributed without the ball marker.

FIG. 7 is a cross sectional view of the ball marker holding portion 300, according to an example embodiment. FIG. 8 is a cross sectional view of the ball marker holding portion taken through a rib in the cup, according to an example embodiment. Now referring to both FIGS. 7 and 8, the ball marker holding portion 300 will be further detailed. As shown, most of the magnetic holding portion 400 is encapsulated within the body 320 of the ball marker holding portion 300. The magnet 410 and the brim 425 of the magnetic holding portion 400 are captured within the body 320. The ball marker holding portion 300 is formed by injection molding. Liquid material also flows into the openings 426 within the brim 425. The cup 330 has a bottom surface 337. The major surface 424 of the magnetic holding element 400 is at a height above the bottom surface 337 which is at substantially the same height at the ribs, such as ribs 332, 334 shown in FIG. 7. The ball marker 1000 includes a first major surface 1024 and a second major surface 1022. The first major surface 1024 of the ball marker 1000 is positioned near the major surface 424 of the magnetic holding element 400. The ribs 332, 334 hold the first major surface 1024 of the ball marker in position with respect to the major surface 424 of the magnetic holding element 400. The ribs 331, 333 (shown in FIG. 3), and 332, 334 also are flexible or supple and bend or flex as the ball marker 1000 is being inserted into the cup 330. After insertion of the ball marker 1000, the ribs return to their original configuration to hold the ball marker 1000 level with respect to the major surface 424 of the magnetic holder. The sidewalls 312 of the main body 310 engage the sidewalls of the ball marker 1000. In addition, the lip or rim 314 at the top of the sidewalls 312 also engages a portion of the second major surface 1022 of the ball marker 1000. Thus, the ball marker 1000 is held in place by a magnetic holding portion 400 and a gripping portion 312, 314 of the ball marker holder 300. The optional lip 314 and the sidewall 312 prevent dislodging of the ball marker 1000 as it sits on the magnetic holder. The ball marker is less susceptible to being lost as a result of the ball marker holder 300 brushing up against a surface or obstacle, such as a tree or the like. The sidewall 312 and the lip 314 prevent a force from the side from sweeping the ball marker 1000 from the position on the major surface 424 of the magnetic holder 400 and on the ribs 331, 332, 333, 334.

FIG. 9 illustrates different types of ball markers having an assortment of displays thereon, according to an example embodiment. The ball markers 1000 include two major surfaces. In the view on FIG. 9 the second major surface 1022 is shown and carries a figure or decorative illustration. In FIG. 9 many ball markers are shown, however only two are numbered. The remaining ball markers 1000 would be similarly numbered. It should be noted that the second major surface 1022 of the ball marker can also carry company logos or company trademarks or trade names. In the case of a wristband 100 which can include another display 120 (see FIG. 1), the display 120 can be coordinated with the display or message on the ball marker 1000. In other words, the wrist band 100 and the ball marker 1000 could be “themed”. Of course other devices, such as the device in FIG. 2A, could also carry and message which is coordinated with the message of the ball marker 1000.

FIG. 10 shows a band 1001 that includes a complete ring that can be worn by a person. A plurality of holding structures 1003 are on the band 1001. The holding structures 1003 are positioned so that the inner surface of the band 1001 is essentially uniform, e.g., band has a continuous smooth inner surface. The plurality of holding structures 1003 are to hold inserts 1005, which can be golf ball markers in some embodiments. The inserts 1005 can have various logos and images thereon. The plurality of holding structures 1003 is illustrated as three structures, but the present invention is not so limited, two or more structures 1005 are within the scope of the present disclosure. The holding structures 1003 can be any of the structures or mechanism described herein to hold the insert 1005 therein, e.g., when the band is worn on the wrist of a person. The holding structure 1003 can include a recess that is elastic and slightly smaller than the insert. This structure can hold the insert by a press fit. The structure 1003 can also include a recess into which an insert 1005 is positioned and held. The recess can be formed by a wall 1006. In the example, of a polymer or silicon band 1001, the wall 1006 can be integrally formed with the band. In an example, the wall 1006 has a thickness that is the same thickness or less than the thickness of the band as measured from the inner surface 1008 of the band to the outer surface 1009 of the band, e.g., the difference between the inner diameter and the outer diameter. In the example with circular inserts 1005, e.g., discs, the both the inner diameter and outer diameter of the wall 1006 are greater than the dimension of the side wall width of the band 1001 such that the wall is wider than the remainder of the band.

The structure 1003 can also include a magnet to hold an insert with a metal that is subject to magnetic forces. As shown in FIG. 10, the plurality of holding structures 1003 is positioned on one side of the band. One side of the ring-like band is less than or equal to 180 degrees around the band 1001, in an example. In another example, at least 90 degrees of the band is continuously free from a holding structure 1003. In another example, at least more than 90 degrees of the band is continuously free from a holding structure 1003. The holding structures 1003 being closely positioned can allow a wearer to position the structures in a desirable location, e.g., all structures 1003 being on top of the wearer's wrist or on the bottom of the wearer's wrist.

FIG. 11 show how an insert 1005 can be separated and removed from a holding structure 1003. One side of the insert 1005 is pressed into the structure 1003. The other side of the insert 1005 remote to the pressed side rotates upwardly out of the recess 1010. The recess 1010 can have a depth such that the top of the insert is essentially flush, e.g., co-planar with the top of the wall 1006 with the insert in the recess 1010. The insert 1005 can include a base, made out of a metal on which an image or logo can be affixed.

FIG. 12 shows an alternate embodiment of the band 1001 with the holding structures 1003 being equally spaced around the perimeter of the band 1001. The holding structures 1003 can be any of the structures or mechanisms described herein to hold an insert or ball marker onto the band. The holding structures 1003 being equally spaced can balance the band on the wearer's wrist. In an example and as shown in the upper left (FIG. 12) holding structure 1003, a magnet 1111 is placed at the bottom of the recess.

FIG. 13 shows a system or kit 1300 of bands 1001A, 1001B and 1001C, and inserts 1005A-1005G. The band 1001A illustrates a single holding structure embodiment. The band 1001B illustrates a plurality of holding structures embodiment with the holding structures being adjacent each other and not equally spaced around the circumference of the band. The band 1001B illustrates a plurality of holding structures embodiment with the holding structures being equally spaced around the circumference of the band. The inserts 1005A-1005G are shown outside of the holding structures of the bands 1001A-1001C to illustrate that any of the inserts can be held in any of the holding structures. That is, the inserts 1005A-1005G can be mixed and matched with different inserts. In an example, a wearer of one band, e.g., 1001B, can trade one, two or all of the inserts in his/her band 1001B with the wearer of another band, e.g., band 1001C. Additional inserts can be purchased for the band 1001A, 1001B or 1001C to have a different look or, in the case of golfers, to attempt to change the golfer's luck when golfing.

FIG. 14 shows two bands 1401, with one (the lower band in FIG. 14) showing the front view of the holding structure 1405 and the other (the upper band in FIG. 14) showing the rear of the holding structure 1405 and the inner surface of the band 1401. An aperture 1406 is positioned in the band 1401 at the holding structure 1405. In an example, the aperture 1406 is centered in the holding structure 1405. The aperture 1406 can have an essentially cylindrical shape. Optionally and as shown in FIG. 14, the aperture 1406 can be defined by a grommet 1408. The grommet 1408 can fix the size of the aperture 1406. The grommet 1408 can allow inserts, e.g., those with bottom protuberances to be held by the grommet, e.g., by a press fit or a friction fit. In another embodiment, the aperture 1406 is free from other supporting structures and is defined by the body of the band, e.g., silicon, rubber, polymer, or other elastic material, fabric or a rigid material such as a metal.

FIGS. 15-18 shows an example of a holding structure 1505, which can be connected to or fixed to a band. The holding structure 1505 includes a base 1501, a neck 1522 that extends upwardly from the base 1501 and a receptacle 1523 is on the upper end of the neck 1522. The base 1501 can be a disk made from a rigid polymer material. The base 1501 has a height less than the height of the neck 1522 or the receptacle 1523. The diameter of the base 1501 is greater than its height. The diameter of the base 1501 can be less than the diameter of the receptacle 1523. However, in certain embodiments, the base 1501 can have a dimension, e.g., diameter of major axis that is greater than a dimension, e.g., length, width, diameter, major axis or minor axis, of the receptacle 1523. The base 1501 can have at least one dimension that is greater than the dimension of the aperture in then band or aperture in the holding structure.

The neck 1522 is fixed to the base 1521 and the receptacle 1523. The neck 1522 can extend at least partially through an aperture in the band. The neck 1522 can define a recess into which a part of the band can extend such that it is above the base and below the receptacle to secure the holding structure 1505 to the band. In an example the height of the neck 1522 is less than the thickness of the band whereat the holding structure is secures. This location on the band can have a greater thickness than the remainder of the band.

The receptacle 1523 is fixed atop the neck 1522 and spaced from the base 1521. The receptacle 1523 has a closed bottom 1527, open top for receiving an insert and side wall 1525 to define a recess for the insert (FIG. 16). In an example, a magnet is positioned in the bottom 1527 so that an insert can be held in the recess under magnetic force. While shown as defining a round recess to recess a round insert, the present disclosure is not so limited. Other shapes may be used, e.g., polygons, square, rectangle, etc. The side wall 1525 is positioned at the outer periphery of the bottom wall 1527. The inner diameter of the side wall 1527 is essentially the same size as the outer periphery of the insert. In an example, the inner diameter of the side wall 1527 is slightly less than the outer periphery of the insert so that the side wall has a friction fit or press fit on the insert with the insert being in the recess. In an example, the bottom wall 1527 is flat with a magnet 1530 positioned in a recess 1529 at the center of the receptacle 1523. In an example, the bottom wall 1527 has a shape of a frustum with an inclined portion extending upwardly from adjacent the base of the side wall 1525 to a center platform 1528. The center platform 1528 is between the bottom of the side wall and the top if the sidewall. In an example, the center platform 1528 is beneath the top of the side essentially the height of the insert. The bottom wall 1527 can be a frusto-conical shape or frusto-pyramidal shape. A recess 1529 is formed in the center platform 1528 and is to fixedly secure a magnet 1530 therein. The center platform 1528, in an example, is less than one-third the area of the bottom wall. In an example, the area of the center platform is less than one-sixth the area of the entire bottom wall.

In one specific example, the base 1501 has an oval shape and its major axis is greater than the width of the aperture in a holding structure such that the base cannot be pulled through the aperture when the aperture is in its normal position. In an example with the aperture being defined by elastic material, the aperture may be deformed to insert the base 1521 and the elastic material can return to its normal position to secure the holding structure 1505 to the band.

FIG. 19 shows a cross sectional view of the holding structure 1505. The magnet 1530 has a top surface that is below the plane of the center platform 1528. As a result, the magnet 1530 will not mechanically contact the insert 1555. In operation, an insert 1555 will sit on the center platform 1528 under the magnetic force of the magnet acting on the insert 1555. An annular hollow space 1540 will be formed between the inclined bottom wall 1527 and the bottom face of the insert 1555. The hollow space 1540 need not be annular in the example with polygon or other shaped receptacle. The hollow space should be adjacent the side wall. As shown, the top face of the insert 1555, which can have an image or a logo, is co-planar or slightly higher than the top of the side wall 1525. To remove, the insert 1555, e.g., to be used as a golf ball marker or to trade with other people, the outer part of the insert 1555 (e.g., at one location) is pressed down into the space 1540. The insert 1555 will pivot on the center platform 1528, e.g., on an edge of the center platform adjacent where the insert is being pressed. The pivoted position of the insert 1555 is schematically shown in dotted line in FIG. 19. The opposite part of the insert 1555 pivots upwardly out of the receptacle and can be gripped by the wearer and removed from the holding structure against the magnetic force of the magnet 1530. The magnetic force of the magnet 1530 on the insert 1555 should be such that the insert 1555 remains magnetically connected to the holding structure 1505 even when in the pivoted position. This will help prevent the insert 1555 from being accidentally knocked off the holding structure 1505, e.g., during physical exercise, golf, or casual contact on the insert.

FIG. 20 shows a top perspective view of the holding structure 1505.

FIG. 21 shows an assembly 1560 of the band 1561 with a plurality of holding structures 1505, each to hold one insert (not shown in FIG. 21)

FIG. 22 shows a further example of a band 1601, which can include at least one insert holding structure 1603 to hold an insert, e.g., a golf ball marker, disc or other promotional, decorative insert (not shown in FIG. 22). The band 1601 is a “slap” band. That is, it includes a resilient member that holds the band flat, see top for views (side, bottom, top and three-quarter views of FIG. 22. That is if the band 1601 was in the position and held at one end, it would remain flat. When the band is to be worn as shown in the bottom right view of FIG. 22, the wearer holds one end and slaps the middle on the wrist, arm or ankle. The resilient member, which can be positioned internally in the band, changes position and now the band has a round or bracelet shape. The band will stay in this position until its two free ends are straightened, e.g., moved into a co-planar position, and then the band 1601 will stay in the flat orientation as shown in the upper views.

FIG. 23 shows a band 1561 with a schematic of the holding structure for an insert. The band 1561 includes an embossed outer embellishment. The embellishment includes a plurality of dimples to resemble a golf ball. However, it is within the scope of the present disclosure to include other embellishments, including design to connotate other sports, e.g., a baseball seam, a basketball seam, a football seam, a soccer ball seam, etc. Other embellishments may include corporate logos, crests, team logos, lettering numbering, or any other symbol.

FIGS. 23A-B show perspective views of a wristband with magnetic inserts, according to example embodiments. Magnets or magnetic components 2304 can be integrated or attached to band 2302. The holding portion 2306 of the marker can include a force portion 2308 such as an embedded magnet. FIGS. 24A-E show perspective views of wristbands with holders, according to example embodiments. FIGS. 25A-Q show perspective views of wristbands with holders including various band designs, according to example embodiments.

In conclusion, a display device for a golf ball marker or other insert includes a mechanism for temporary attaching the display device in a visible position on a person, and a ball marker holding portion attached to the mechanism. The ball marker holding portion also includes a magnetic force portion. In some aspects, the holding portion can include a gripping portion adapted to apply a holding force on a ball marker. The magnetic force portion includes a magnet; and an element including a recess for receiving the magnet. The magnet is encapsulated within the main body. The ball marker holding portion further includes a main body, and a cup attached to the main body. At least one major surface of the magnetic force portion is positioned in the cup. The cup includes a set of ribs. The set of ribs and a major surface of the magnetic force portion defining a plane near the bottom of the cup. The cup includes the gripping portion. The gripping portion includes a sidewall of the cup. The sidewall has an optional lip. The sidewall and lip are dimensioned to fit around a periphery of a ball marker and over a portion of one major surface of the ball marker. Both the sidewall and the lip are adapted to grip a ball marker. The gripping portion is dimensioned to receive and hold a plurality of different ball markers. The display device is generally distributed with a ball marker positioned therein. In another embodiment, the display device is distributed without the ball marker.

Golf ball markers, as described herein, can include sculptured or painted reproductions of a logo, such as a logo for a golf course or tournament, a country club insignia, a corporate or university logo, or another insignia. Some golf ball markers include personalized surface embellishments. Whatever the particular adornment adopted for a golf ball marker by a player, more often than not the player is proud to display the ball marker, since it is frequently indicative of courses or tournaments in which the player has participated or otherwise attests to the players experience or competence in participation in the game of golf. Other golf ball markers that are part of the present disclosure include insignia or logos for fun and add to the enjoyment of being on the golf course.

A player may be happy to display a ball marker, in conventional use golf ball markers offer only a limited opportunity for such display. However, the present inventor has identified some drawbacks with conventional use of ball markers. For example, when a golfer's ball lies in the field of play, the ball marker is typically carried in the golfer's pocket, and is thus concealed from view. Furthermore, when a golf ball marker is carried in a player's pocket, the player is often forced to dig and fumble through the contents of the pocket in order to retrieve it and mark the golf ball. Golf ball markers have similar sizes and shapes to coins of currency, and are often carried in the same pocket. This increases the amount of fumbling around looking for the marker. In fact, in some instances, the golfer may just give up and use a coin since the golf ball marker may not be easily separated from the other contents of the pocket by the sense of touch. The retrieval of a golf ball marker, in some instances, may annoy or distract the golfer. The embodiments of described in the present disclosure address at least some of these drawbacks relative to conventional ball markers.

It will be appreciated and understood from reading the present disclosure that certain examples as described herein have the magnet mounted in the bracelet, band or the holding structure(s). The insert or marker need not be magnetized but should include metal that is influenced by the magnet to hold the insert or marker on at the holding structure on the band. It is further appreciated that the magnet is selected to exert sufficient force to hold the insert, which can weigh 10's of grams. In an example, the magnet has a strength of 500 gauss or less. In an example, the magnet has a strength of 250 gauss or less. In an example, the magnet has a strength of 100 gauss or less. In an example, the magnet can have a pull force at essentially zero distance of about seven lbs down to about 3 lbs.

It will further be understood that the present disclosure is not limited to silicon or polymer bands. The bands can include fabric bands, elastic bands, woven bands, metal bands, leather bands or combinations thereof. The holding structure of FIGS. 10-23 is particularly suited for attachment to any of these types of bands.

This has been a detailed description of some exemplary embodiments of the invention(s) contained within the disclosed subject matter. Such invention(s) may be referred to, individually and/or collectively, herein by the term “invention” merely for convenience and without intending to limit the scope of this application to any single invention or inventive concept if more than one is in fact disclosed. The detailed description refers to the accompanying drawings that form a part hereof and which shows by way of illustration, but not of limitation, some specific embodiments of the invention, including a preferred embodiment. These embodiments are described in sufficient detail to enable those of ordinary skill in the art to understand and implement the inventive subject matter. Other embodiments may be utilized and changes may be made without departing from the scope of the inventive subject matter. Thus, although specific embodiments have been illustrated and described herein, any arrangement calculated to achieve the same purpose may be substituted for the specific embodiments shown. This disclosure is intended to cover any and all adaptations or variations of various embodiments. Combinations of the above embodiments, and other embodiments not specifically described herein, will be apparent to those of skill in the art upon reviewing the above description.

Other embodiments will be apparent to those of skill in the art upon reviewing the above description. The scope of the invention should, therefore, be determined with reference to the appended claims, along with the full scope of equivalents to which such claims are entitled. In the appended claims, the terms “including” and “in which” are used as the plain-English equivalents of the respective terms “comprising” and “wherein.” Also, in the following claims, the terms “including” and “comprising” are open-ended, that is, a system, device, article, or process that includes elements in addition to those listed after such a term in a claim are still deemed to fall within the scope of that claim. Moreover, in the following claims, the terms “first,” “second,” and “third,” etc. are used merely as labels, and are not intended to impose numerical requirements on their objects.

The use of the term “or” in the present description should be interpreted as an non-exclusive “or” unless otherwise stated.

In the foregoing Detailed Description, various features are grouped together in a single embodiment for the purpose of streamlining the disclosure. This method of disclosure is not to be interpreted as reflecting an intention that the claimed embodiments of the invention require more features than are expressly recited in each claim. Rather, as the following claims reflect, inventive subject matter lies in less than all features of a single disclosed embodiment. Thus the following claims are hereby incorporated into the Detailed Description, with each claim standing on its own as a separate preferred embodiment.

It will be readily understood to those skilled in the art that various other changes in the details, material, and arrangements of the parts and method stages which have been described and illustrated in order to explain the nature of this invention may be made without departing from the principles and scope of the invention as expressed in the subjoined claims.

It is emphasized that, for purposes of the United States, the Abstract is provided to comply with 36 C.F.R. §1.62(b) requiring an Abstract that will allow the reader to quickly ascertain the nature and gist of the technical disclosure. It is submitted with the understanding that it will not be used to interpret or limit the scope or meaning of the claims. 

1. A wrist band for golf comprising: a band; and a ball marker holding portion in contact with the band, the ball marker holding portion further comprising: a force portion; and a gripping portion adapted to apply a holding force on a ball marker.
 2. The wrist band of claim 1, wherein the force portion comprises a magnetic force portion.
 3. The wrist band of claim 1, wherein the ball marker holding portion further comprises: a main body; and a cup in contact with the main body, at least one major surface of the force portion positioned in the cup.
 4. The wrist band of claim 3, wherein a substantial portion of the holding portion is captured within the main body of the ball marker holding portion.
 5. The wrist band of claim 2, wherein the holding portion includes: a magnet; and an element including a recess for receiving the magnet, the magnet encapsulated within the main body.
 6. The wrist band of claim 5, further comprising two or more magnets in contact with the wrist band.
 7. The wrist band of claim 5, wherein the band is magnetic.
 8. The wrist band of claim 1, wherein the force portion includes: a hat-shaped element; and a magnet in contact with the hat-shaped element.
 9. The wrist band of claim 8, wherein the magnet is compression fit within the hat-shaped element.
 10. The wrist band of claim 3, wherein the cup includes a set of ribs, the set of ribs and a major surface of the force portion defining a plane near the bottom of the cup.
 11. The wrist band of claim 3, wherein the cup includes the gripping portion, the gripping portion including a sidewall of the cup, the sidewall having a lip, the sidewall and lip dimensioned to fit around a periphery of a ball marker and over a portion of one major surface of the ball marker.
 12. The wrist band of claim 3, wherein the cup includes the gripping portion, the gripping portion including a sidewall of the cup, the sidewall having a lip, the sidewall and lip dimensioned to fit around a periphery of a ball marker and over a portion of one major surface of the ball marker, both the sidewall and the lip adapted to grip a ball marker.
 13. The wrist band of claim 3, having a ball marker positioned therein.
 14. The wrist band of claim 3, wherein the gripping portion is dimensioned to receive and hold a plurality of different ball markers.
 15. The wrist band of claim 1, wherein the ball markers comprise one or more of decorative discs, coins, colored markers, markers with logos, and markers with numerical identification
 16. A display device for a golf ball marker, the display device comprising: a mechanism for temporary attaching the display device in a visible position; and a ball marker holding portion attached to the mechanism, the ball marker holding portion further comprising: a force portion; and a gripping portion adapted to apply a holding force on a ball marker.
 17. The display device of claim 16, wherein the force portion comprises a magnetic force portion.
 18. The display device of claim 16 wherein the force portion includes: a magnet; and an element including a recess for receiving the magnet, the magnet encapsulated within the main body.
 19. The display device of claim 17, wherein the magnet is positioned or removed by one or more of compression, twisting, snapping and a combination thereof.
 20. The display device of claim 16, wherein the ball marker holding portion further comprises: a main body; and a cup in contact with the main body, at least one major surface of the force portion positioned in the cup.
 21. The display device of claim 20, wherein the cup includes a set of ribs, the set of ribs and a major surface of the magnetic force portion defining a plane near the bottom of the cup.
 22. The display device of claim 20, wherein the cup includes the gripping portion, the gripping portion including a sidewall of the cup, the sidewall having a lip, the sidewall and lip dimensioned to fit around a periphery of a ball marker and over a portion of one major surface of the ball marker.
 23. The display device of claim 20, wherein the cup includes the gripping portion, the gripping portion including a sidewall of the cup, the sidewall having a lip, the sidewall and lip dimensioned to fit around a periphery of a ball marker and over a portion of one major surface of the ball marker, both the sidewall and the lip adapted to grip a ball marker.
 24. The display device of claim 16, having a ball marker positioned therein.
 25. The display device of claim 16, wherein the gripping portion is dimensioned to receive and hold a plurality of different ball markers.
 26. A wrist band for holding inserts comprising: a band; and an insert holding structure attached to the band, the insert holding further comprising: a force portion; a center platform to hold the insert; and an inclined portion that allows the insert to pivot and be removed from the insert holding structure.
 27. The wrist band of claim 26, wherein the force portion comprise a magnetic force portion.
 28. The wrist band of claim 26, wherein the insert holding structure includes a side wall surrounding a bottom wall.
 29. The wrist band of claim 26, wherein the bottom wall is at least partially a frustum that also defines the center platform.
 30. The wrist band of claim 26, wherein the center platform is below a top of the side wall.
 31. The wrist band of claim 29, wherein the center platform includes a recess and wherein a magnet is positioned in the recess.
 32. The wrist band of claim 31, wherein the magnet is positioned below a top surface of the center platform.
 33. The wrist band of claim 26, wherein the insert holding structure includes a plurality of structures to hold a plurality of inserts.
 34. The wrist band of claim 33, wherein the plurality of structures are equally spaced around the band.
 35. The wrist band of claim 33, wherein the plurality of structures are adjacent to each other such that at least half of the band is free from insert holding structures
 36. The wrist band of claim 26, wherein the insert holding structures are to hold golf ball markers. 